Documentation/driver-api/hte/tegra194-hte.rst - linux/kernel/git/torvalds/linux - Git at Google

 .. SPDX-License-Identifier: GPL-2.0+

 HTE Kernel provider driver
 ==========================

 Description
 -----------
 The Nvidia tegra194 HTE provider driver implements two GTE
 (Generic Timestamping Engine) instances: 1) GPIO GTE and 2) LIC
 (Legacy Interrupt Controller) IRQ GTE. Both GTE instances get the
 timestamp from the system counter TSC which has 31.25MHz clock rate, and the
 driver converts clock tick rate to nanoseconds before storing it as timestamp
 value.

 GPIO GTE
 --------

 This GTE instance timestamps GPIO in real time. For that to happen GPIO
 needs to be configured as input. The always on (AON) GPIO controller instance
 supports timestamping GPIOs in real time and it has 39 GPIO lines. The GPIO GTE
 and AON GPIO controller are tightly coupled as it requires very specific bits
 to be set in GPIO config register before GPIO GTE can be used, for that GPIOLIB
 adds two optional APIs as below. The GPIO GTE code supports both kernel
 and userspace consumers. The kernel space consumers can directly talk to HTE
 subsystem while userspace consumers timestamp requests go through GPIOLIB CDEV
 framework to HTE subsystem.

 See gpiod_enable_hw_timestamp_ns() and gpiod_disable_hw_timestamp_ns().

 For userspace consumers, GPIO_V2_LINE_FLAG_EVENT_CLOCK_HTE flag must be
 specified during IOCTL calls. Refer to ``tools/gpio/gpio-event-mon.c``, which
 returns the timestamp in nanoseconds.

 LIC (Legacy Interrupt Controller) IRQ GTE
 -----------------------------------------

 This GTE instance timestamps LIC IRQ lines in real time. There are 352 IRQ
 lines which this instance can add timestamps to in real time. The hte
 devicetree binding described at ``Documentation/devicetree/bindings/timestamp``
 provides an example of how a consumer can request an IRQ line. Since it is a
 one-to-one mapping with IRQ GTE provider, consumers can simply specify the IRQ
 number that they are interested in. There is no userspace consumer support for
 this GTE instance in the HTE framework.

 The provider source code of both IRQ and GPIO GTE instances is located at
 ``drivers/hte/hte-tegra194.c``. The test driver
 ``drivers/hte/hte-tegra194-test.c`` demonstrates HTE API usage for both IRQ
 and GPIO GTE.
	.. SPDX-License-Identifier: GPL-2.0+

	HTE Kernel provider driver
	==========================

	Description
	-----------
	The Nvidia tegra194 HTE provider driver implements two GTE
	(Generic Timestamping Engine) instances: 1) GPIO GTE and 2) LIC
	(Legacy Interrupt Controller) IRQ GTE. Both GTE instances get the
	timestamp from the system counter TSC which has 31.25MHz clock rate, and the
	driver converts clock tick rate to nanoseconds before storing it as timestamp
	value.

	GPIO GTE
	--------

	This GTE instance timestamps GPIO in real time. For that to happen GPIO
	needs to be configured as input. The always on (AON) GPIO controller instance
	supports timestamping GPIOs in real time and it has 39 GPIO lines. The GPIO GTE
	and AON GPIO controller are tightly coupled as it requires very specific bits
	to be set in GPIO config register before GPIO GTE can be used, for that GPIOLIB
	adds two optional APIs as below. The GPIO GTE code supports both kernel
	and userspace consumers. The kernel space consumers can directly talk to HTE
	subsystem while userspace consumers timestamp requests go through GPIOLIB CDEV
	framework to HTE subsystem.

	See gpiod_enable_hw_timestamp_ns() and gpiod_disable_hw_timestamp_ns().

	For userspace consumers, GPIO_V2_LINE_FLAG_EVENT_CLOCK_HTE flag must be
	specified during IOCTL calls. Refer to ``tools/gpio/gpio-event-mon.c``, which
	returns the timestamp in nanoseconds.

	LIC (Legacy Interrupt Controller) IRQ GTE
	-----------------------------------------

	This GTE instance timestamps LIC IRQ lines in real time. There are 352 IRQ
	lines which this instance can add timestamps to in real time. The hte
	devicetree binding described at ``Documentation/devicetree/bindings/timestamp``
	provides an example of how a consumer can request an IRQ line. Since it is a
	one-to-one mapping with IRQ GTE provider, consumers can simply specify the IRQ
	number that they are interested in. There is no userspace consumer support for
	this GTE instance in the HTE framework.

	The provider source code of both IRQ and GPIO GTE instances is located at
	``drivers/hte/hte-tegra194.c``. The test driver
	``drivers/hte/hte-tegra194-test.c`` demonstrates HTE API usage for both IRQ
	and GPIO GTE.